First record of monogenean fish parasites in the Upper Lufira River Basin (Democratic Republic of Congo): dactylogyrids and gyrodactylids infesting Oreochromis mweruensis, Coptodon rendalli and Serranochromis macrocephalus (Teleostei: Cichlidae)

Background Monogenean parasites have never been formally reported on fishes from the Lufira River Basin. In this context, we decided to record the monogenean parasite fauna of three cichlid species found in the Upper Lufira River Basin for the first time by inventorizing their diversity (species composition) and analysing their infection parameters (prevalence, mean intensity and abundance). Methods The African cichlid fishes Oreochromis mweruensis, Coptodon rendalli and Serranochromis macrocephalus were selected for the study, given their economic value and their abundance in the Upper Lufira River Basin. Monogeneans were isolated from the gills and stomach, mounted on glass slides with either Hoyer’s medium or ammonium picrate-glycerin for identification under a stereomicroscope, based on morphological analysis of genital and haptoral hard parts. Indices of diversity and infections parameters were calculated. Results A total of 13 gill monogenean parasite species (Cichlidogyrus dossoui, C. halli, C. karibae, C. mbirizei, C. papernastrema, C. quaestio, C. sclerosus, C. tiberianus, C. tilapiae, C. zambezensis, Scutogyrus gravivaginus, S. cf. bailloni and Gyrodactylus nyanzae) and one stomach monogenean (Enterogyrus malmbergi) were identified. A species richness (S) of 10 for O. mweruensis, S = 6 for C. rendalli and S = 2 for S. macrocephalus was recorded. Five parasite species were reported to be common amongst O. mweruensis and C. rendalli. According to cichlid species, the most prevalent parasite species was C. halli (prevalence [P] = 80.9%) on O. mweruensis, C. dossoui (P = 92.9%) on C. rendalli and C. karibae and C. zambezensis (both P = 9.1%) on S. macrocephalus. The parasite species with the highest mean intensity (MI) were G. nyanzae (MI = 8.7) on O. mweruensis, C. papernastrema (MI = 17.1) on C. rendalli and C. karibae (MI = 15) on S. macrocephalus. The findings indicate new host ranges for five parasites species (C. quaestio, S. cf. bailloni, E. malmbergi on O. mweruensis, C. halli on C. rendalli and C. karibae on S. macrocephalus) as well as new geographical records for all of them as they are recorded for the first time in the Lufira River Basin. Conclusions This study highlighted the richness of monogenean communities in the Upper Lufira River Basin and is a starting point for future helminthological studies, such as on the use of fish parasites as indicators of anthropogenic impacts. Graphical Abstract Supplementary Information The online version contains supplementary material available at 10.1186/s13071-022-05637-5.


Background
The Congo Basin harbours the greatest species richness of fishes across the African continent [1]. The Congo Basin encompasses 3,747,320 km 2 , with a drainage area that covers most of the Democratic Republic of Congo and parts of some of its bordering countries (Angola, Zambia, Tanzania, Burundi, Rwanda, Central African Republic and Republic of Congo) and a small part of Cameroon [2]. Many different types of habitats are found in the Congo Basin, and these are subdivided into separate drainages: the Upper Congo (called Lualaba), the Middle Congo and the Lower Congo [1,3,4]. One of the major tributaries in the Upper Congo drainage is the Lufira River [5], which can also be subdivided into three sections: the Upper Lufira (from the source of the river to Lake Koni), the Middle Lufira (from downstream Lake Koni to the Kyubo Falls) and the Lower Lufira (from downstream the Kyubo Falls to the Kamalondo Depression, at the junction with the Lualaba River) [4,6]. During the first half of the 20th century two successive dams were built in the Upper Lufira River to provide hydroelectric power, resulting in the creation of two artificial Lakes, Tshangalele (1930) and Koni (1949) [7][8][9]. Lake Tshangalele, located about 35 km east of the town of Likasi, is home to a variety of fish species, and it is also an UNESCO Biosphere Reserve, rich in bird life [10,11]. Most of the studies on biodiversity undertaken to date in the Lufira River have focussed on vertebrates, such as fishes and birds [12][13][14][15]. Vast and speciose communities, which are often dominated by less sizeable animals such as flatworms or various parasite taxa, remain understudied [16,17]. In view of the high diversity of potential host species in the tropics, it can be expected that parasitological surveys there would lead to the discovery of many parasite species, including species new to science [18,19].
The focus of this study was monogenean fish parasites, which due to their diversity, wide distribution, high host specificity and single-host life-cycle are interesting models for studying the extent of parasite biodiversity and the underlying diversification mechanisms [20]. Monogeneans are common parasitic flatworms (Platyhelminthes) that mostly infest fish but sporadically infect aquatic invertebrates, amphibians, reptiles and a single mammalian species (the hippopotamus) [21][22][23][24][25][26]. Parasitic monogeneans present a high risk for aquaculture industries, causing substantial economic losses, and have been associated with reduced growth, morbidity and mortality [27][28][29]. Several monogenean species are reported to have serious economic impacts in the confines of captive or intensive fish farming [30,31].
The infection sites of monogeneans on fish hosts are typically gills, fins and/or skin [32]; however, very occasionally they are also found in the stomach, urinary bladder, intestine, oral or nasal cavity, eyes and heart [33,34]. Due to a one-host life-cycle and a close relationship with the respective host species, many monogeneans are specialists, infesting only a single host species (oioxenous specificity), although others are generalists, infesting ≥ 2 host species (stenoxenous specificity) [35][36][37]. Mendlová and Šimková [38] used a more extensive number of categories of host specificity on the basis of the phylogenetic relationships among (cichlid) host species in which parasites can be: (i) strict specialists when infecting only one host species; (ii) intermediate specialists when infecting ≥ 2 congeneric host species; (iii) intermediate generalists when infecting noncongeneric cichlid species belonging to the same tribe; and finally (iv) generalists, when infecting noncongeneric cichlid species of at least two different tribes.
The overall aim of this study was to record the monogenean parasite fauna of three cichlid species found in the Upper Lufira River Basin. At the start of this study, these parasites had never been formally reported from this region. The specific objectives include: (i) inventorizing the diversity of gill monogenean communities, and (ii) analysing infection parameters of these monogenean parasites.

Study area
This study was conducted in the Upper Lufira River Basin (altitude: 1114-1160 m a.s.l.) (Fig. 1), which is localized across the mining hinterland area in the west of Haut-Katanga Province (in the south of the former Katanga Province). The climate type is equatorial savanna with a dry winter (type AW6: A, equatorial climate region; W, desert) following the classification of Köppen [43] and a rainy tropical climate with a rainy season extending from November to April [44]. Most precipitation falls from December to March [45]. The Upper Lufira River Basin is characterized by a great diversity of fish species, including members of the families Alestidae, Anabantidae, Amphilidae, Auchenoglanididae, Characidae, Clariidae, Cichlidae, Cyprinidae, Cyprinodontidae, Distichodontidae, Mochokidae, Mormyridae and Schilbeidae [46,47]. There is organized small-scale fishing for Coptodon rendalli (Boulenger, 1896), Oreochromis mweruensis Trewavas, 1983, Serranochromis macrocephalus Boulenger, 1899, Clarias gariepinus (Burchell, 1822) and Clarias ngamensis (Castelnau, 1861) [48]. Caught fishes are intended for human consumption, for a small part by the local population around the Upper Lufira River Basin and for most part by residents of bigger towns, such as Likasi and Lubumbashi.

Fish sampling
Three fish species, O. mweruensis, C. rendalli and S. macrocephalus were selected for examination in the study, given their economic value and their abundance in the Upper Lufira River Basin [48]. Fishes were collected using gillnets with a mesh size of 12-20 mm knot to knot or were bought from local fishermen along the shores of the Lufira River, Lake Tshangalele and Lake Koni ( Fig. 1) between September 2015 and August 2018. Once obtained, the fishes were kept alive in an aerated tank and transported to a field laboratory where they were identified to the species level following the keys of Lamboj [47]. The fishes were killed by severing the spinal cord just posterior to the cranium, immediately prior to examination, following the method of Olivier et al. [49]. For each fish, total length (TL) and standard length (SL) were measured to the nearest 0.1 cm, and the weight was taken to the nearest 0.1 g.

Parasite sampling
To collect monogenean parasites, we first dissected the fishes and removed the right gill arches by dorso-ventral section. One fish specimen from amongst all of the fish species sampled was randomly dissected and inspected for monogenean parasites in its stomach. Gill arches and the stomach were placed in a Petri dish containing water for examination using an (Optika 4.0.0 stereomicroscope (OPTIKA Srl, Ponteranica, BG, Italy). Parasites were dislodged from the gill filaments using entomological needles and fixed between a slide and coverslip into a drop of either Hoyer's medium or ammonium picrate-glycerin, according to Nack et al. [50]. After 24 h, the coverslips were sealed with nail varnish. Parasites were deposited in the invertebrate collection of the Royal Museum of Central Africa (RMCA) under accession numbers RMCA_VERMES_43743-44345.

Results
Fishes used in this study were of different sizes and weight ranges. For O. mweruensis (n = 47), the mean (± standard deviation) TL and SL were 18.2 ± 4.1 and 14.6 ± 3.2 cm, respectively, and the mean weight was 72.7 ± 38.8 g. For C. rendalli (n = 28), the mean TL and SL were 15.1 ± 2.8 and 12.0 ± 2.4 cm, respectively, and the mean weight was 72.7 ± 38.8 g. For S. macrocephalus (n = 11), the mean TL and SL were 16.9 ± 3.4 and 14.0 ± 2.8 cm, respectively, and the mean weight was 81.9 ± 51.5 g.

Composition and indices of diversity of the Monogenean community in the Upper Lufira River Basin
Specimens representing four genera of monogeneans, Cichlidogyrus, Gyrodactylus, Scutogyrus (on the gills) and Enterogyrus (in the stomach) were collected (  Table 2 to provide a picture of the distribution of monogeneans over time.

Infection parameters of monogenean parasites in the Upper Lufira River Basin
The prevalence, mean intensity and mean abundance presented here take into account conspecific host individuals grouped without seasonal subdivision as the main objective of the study was to record the monogenean parasite diversity, not the epidemiological variation.  (Fig. 7). For G. nyanzae, the highest mean intensity of 8.7 ± 9.9 was recorded from O. mweruensis and the lowest mean intensity of 1 ± 0 was recorded from C. rendalli. Conversely, the mean intensity for Cichlidogyrus papernastrema was 17.1 ± 24 when the latter fish host was examined. From S. macrocephalus, the highest and lowest mean intensities were for C. karibae (MI = 15) and C. zambezensis (MI = 5), respectively (Fig. 8).
Results on the mean abundance revealed that C. halli was the most abundant species on O. mweruensis (MA = 6.4 ± 7.7), C. dossoui was the most abundant species on the gills of C. rendalli (9.7 ± 15.6) and C. karibae was the most abundant species on S. macrocephalus (MA = 1.4 ± 4.5) (Fig. 9).

Discussion
This study was conducted to explore the monogenean parasite fauna of three economically important and abundant cichlid species in the Upper Lufira River Basin, a part of the Upper Congo Basin. During this study we recorded 13 gill and one stomach monogenean species. Parasite species from fish species belonging to the genera Oreochromis Günther, 1889, Coptodon Gervais, 1853 and Serranochromis Regan, 1920 have been previously reported [39,56,63]. Although a few studies on monogenean parasites from the Congo Basin have been conducted in the Lake Tanganyika, Bangweulu-Mweru, Upper Lualaba, Kasai, Lower Congo and Pool Malebo Ecoregions (sensu Thieme et al. [64]) [55,56,63,[65][66][67][68], the present study is the first to record monogenean parasites in the Lufira River Basin. Based on the results of previous studies and current information, this study extends the known host range of five parasite species. Cichlidogyrus quaestio, S. cf. bailloni and E. malmbergi were recorded for the first time from O. mweruensis; C. halli was recorded for the first time from C. rendalli; and C. karibae was recorded for the first time from S. macrocephalus. Cichlidogyrus karibae was described by Douëllou [69] on Sargochromis codringtonii (Boulenger, 1908) in Lake Kariba (Zambezi Basin, Zimbabwe). Enterogyrus malmbergi was described by Bilong Bilong [70] from the  [57] on Sarotherodon galilaeus (L, 1758) in the Mékrou River (Niger Basin, Niger, West Africa). Since only a single similar parasite specimen was retrieved in the present study on the gills of O. mweruensis, it cannot be assigned to S. bailloni with certainty as the mount was imperfect, although we were able to recognize and identify the principal diagnostic structures (the haptor, the male copulatory organ and the vagina). Verification of its identification with molecular markers is necessary to determine whether this specimen belongs to S. bailloni or to a morphologically similar species currently unknown to science. Nevertheless these (putative in case of S. bailloni) records substantially expand the known geographical distribution of these three monogenean species, as this study is the first time they have been recorded in the Congo Basin.
In terms of species richness, our results are similar to those reported earlier for monogenean gill parasites on . Six monogenean species were found on C. rendalli in the present study, while Jorissen et al. [63,66] collected five parasite species (all but C. halli corresponding to those found in this study) in the Bangweulu-Mweru Ecoregion. On S. macrocephalus, we found two monogenean species (C. karibae and C. zambezensis), while Jorissen et al. [66] reported only the latter species on S. macrocephalus and its congeners Serranochromis thumbergi (Castenau, 1861), Serranochromis jallae (Boulenger, 1896) and Sargochromis mellandi (Boulenger, 1905).
In terms of infection parameters, on O. mweruensis, one parasite species had a prevalence of > 50% in the Upper Lufira River Basin (C. halli, P = 80.9%) against two monogenean species in the Bangweulu-Mweru Ecoregion reported by Jorissen et al. [66] (P = 57.1% for C. dossoui and S. gravivaginus). On C. rendalli, C. dossoui (P = 92.3%) in the Upper Lufira River Basin, and C. dossoui, C. quaestio and C. tiberianus in the Bangweulu-Mweru Ecoregion have P > 50% following comparison with Jorissen et al. [66]. On S. macrocephalus, no parasite species had a prevalence > 50% in the Upper Lufira River Basin, while C. zambezensis reached a prevalence of 100% in the Bangweulu-Mweru Ecoregion. Regarding the infection intensity (Table 1)  These differences in infection parameters may be due to sample size, season, biogeographical distribution or other environmental parameters, as communities of cichlidinfecting monogeneans have been observed to fluctuate seasonally and between habitat types, and parasite species composition may change between areas and basins [71,72].

Conclusion
In this study, we recorded the species richness and infection parameters of three cichlid species in the Upper Lufira River Basin that infect the stomach and gills. A total of 13 monogenean species were recovered from O. macrochir, C. rendalli and S. macrocephalus. These findings are the first record of monogeneans in the Lufira River Basin. For future sampling, it will also be interesting to study groups of fish parasites other than monogenean parasites, as well as other fish species or families, to record the diversity of parasites. In many parts of the Congo Basin, there is a lack of baseline data on fish parasites. With this in mind, this study may serve as an important baseline for future studies conducted on fish from the Upper Lufira River Basin as well as the rest of the Congo Basin, enabling the comparison of values to those found in the present study to establish whether there has been a change in parasite composition and parasite load over time. In future studies, molecular analyses may be useful to confirm the morphological identification of parasites and identify phylogeographical patterns.

Supplementary Information
The online version contains supplementary material available at https:// doi. org/ 10. 1186/ s13071-022-05637-5. Author contributions ACM, JS and MPMV designed and supervised this study. GKK carried out the study (sampled fishes, collected parasites, performed morphological identification of parasites, analysed data and wrote the paper). ACM, EA, EJWMNV contributed to sampling, the collection and identification of fish. FMB, WJLP, WJS, JRS and MPMV helped with the collection and preparation of the gill parasites. AP, MWPJ, MPMV helped with the morphological identification of parasites species. MPMV helped with the writing of the paper, analysis of the data, interpretation and discussion of results and provided scientific background in the field of monogenean research. TH and all the authors edited the manuscript. All authors read and approved the final manuscript.

Funding
This research was carried out with the funding support of a VLIR-UOS South Initiative (ZRDC2014MP084

Availability of data and materials
Slides of monogenean parasites are available in the invertebrate collection of the Royal Museum of Central Africa, Tervuren, Belgium under accession numbers RMCA_VERMES_43743-44345 (Additional file 1: Table S1).

Declarations
Ethics approval and consent to participate Fishes were collected using gillnets or were bought from fishermen. In the absence of relevant animal welfare regulations in the DRC, we used the guidelines and authorization in accordance with the Unité de Recherche en Biodiversité et Exploitation durable des Zones Humides (BEZHU) of the Université de Lubumbashi.

Consent for publication
Not applicable.